Files
nym/nym-node-status-api/nym-node-status-client/src/lib.rs
T
durch 038234e5de feat(nym-node-status): implement primary/secondary server architecture
- Agent now requests testruns only from primary server (first in list)
- Results are submitted to all configured servers in parallel
- Secondary servers accept external testruns via new v2 endpoint
- Added auto-creation of gateway and testrun records on secondary servers
- New database queries: get_or_create_gateway, insert_external_testrun
- Client library enhanced with submit_results_with_context method
2025-07-04 21:59:16 +02:00

137 lines
4.2 KiB
Rust

use crate::models::{get_testrun, submit_results, submit_results_v2, TestrunAssignment};
use anyhow::bail;
use api::ApiPaths;
use nym_crypto::asymmetric::ed25519::{PrivateKey, Signature};
use tracing::instrument;
mod api;
pub mod auth;
pub mod models;
pub struct NsApiClient {
api: ApiPaths,
client: reqwest::Client,
auth_key: PrivateKey,
}
impl NsApiClient {
pub fn new(server_ip: &str, server_port: u16, auth_key: PrivateKey) -> Self {
let server_address = format!("{server_ip}:{server_port}");
let api = ApiPaths::new(server_address);
let client = reqwest::Client::new();
Self {
api,
client,
auth_key,
}
}
#[instrument(level = "debug", skip_all)]
pub async fn request_testrun(&self) -> anyhow::Result<Option<TestrunAssignment>> {
let target_url = self.api.request_testrun();
let payload = get_testrun::Payload {
agent_public_key: self.auth_key.public_key(),
timestamp: time::UtcDateTime::now().unix_timestamp(),
};
let signature = self.sign_message(&payload)?;
let request = get_testrun::GetTestrunRequest { payload, signature };
let res = self.client.get(target_url).json(&request).send().await?;
let status = res.status();
let response_text = res.text().await?;
if status.is_client_error() {
bail!("{}: {}", status, response_text);
} else if status.is_server_error() {
if matches!(status, reqwest::StatusCode::SERVICE_UNAVAILABLE)
&& response_text.contains("No testruns available")
{
return Ok(None);
} else {
bail!("{}: {}", status, response_text);
}
}
serde_json::from_str(&response_text)
.map(|testrun| {
tracing::info!("Received testrun assignment: {:?}", testrun);
testrun
})
.map_err(|err| {
tracing::error!("err");
err.into()
})
}
#[instrument(level = "debug", skip(self, probe_result))]
pub async fn submit_results(
&self,
testrun_id: i64,
probe_result: String,
assigned_at_utc: i64,
) -> anyhow::Result<()> {
let target_url = self.api.submit_results(testrun_id);
let payload = submit_results::Payload {
probe_result,
agent_public_key: self.auth_key.public_key(),
assigned_at_utc,
};
let signature = self.sign_message(&payload)?;
let submit_results = submit_results::SubmitResults { payload, signature };
let res = self
.client
.post(target_url)
.json(&submit_results)
.send()
.await
.and_then(|response| response.error_for_status())?;
tracing::debug!("Submitted results: {})", res.status());
Ok(())
}
#[instrument(level = "debug", skip(self, probe_result))]
pub async fn submit_results_with_context(
&self,
testrun_id: i64,
probe_result: String,
assigned_at_utc: i64,
gateway_identity_key: String,
) -> anyhow::Result<()> {
let target_url = self.api.submit_results_v2(testrun_id);
let payload = submit_results_v2::Payload {
probe_result,
agent_public_key: self.auth_key.public_key(),
assigned_at_utc,
gateway_identity_key,
};
let signature = self.sign_message(&payload)?;
let submit_results = submit_results_v2::SubmitResultsV2 { payload, signature };
let res = self
.client
.post(target_url)
.json(&submit_results)
.send()
.await
.and_then(|response| response.error_for_status())?;
tracing::debug!("Submitted results with context: {})", res.status());
Ok(())
}
fn sign_message<T>(&self, message: &T) -> anyhow::Result<Signature>
where
T: serde::Serialize,
{
let serialized = bincode::serialize(message)?;
let signed = self.auth_key.sign(&serialized);
Ok(signed)
}
}